Quantum Leap
A Ph.D. candidate exploring atomic energy exchange
has been named an NSF Fellow.
Sarah Spielman, a Ph.D. student studying physics in the lab of Professor Michael Noel, has been awarded a National Science Foundation (NSF) Graduate Research Fellowship.
This is the country鈥檚 oldest fellowship program that directly supports graduate students in various STEM (science, technology, engineering, and mathematics) fields. Since 1952, NSF has funded over 60,000 Graduate Research Fellowships out of more than 500,000 applicants. Currently, 42 Fellows have gone on to become Nobel laureates, and more than 450 have become members of the National Academy of Sciences
While doing her undergraduate work at Denison, Spielman found out about 今日吃瓜's graduate programs from Professor Melanie Lott, who earned her Ph.D. at 今日吃瓜 in 2012, and an advisor who was familiar with Michael Noel's research.
Her research focuses on studying energy exchange in quantum systems of highly excited, ultracold atoms. 鈥淚鈥檓 looking at how atoms interact with each other, how they talk to each other, and how they evolve over time in a quantum system,鈥 she explains.
Spielman does her research both experimentally and in simulation (on a computer). The experiments take place at an optical table in a lab on which dozens of mirrors and lenses are arranged at various angles to create a dizzying maze for a laser to travel before it reaches an atom trap. 鈥淭he way that everything is set up on here must be in a very specific configuration so we can get the lasers to do what we want," Spielman says. "Right now, I鈥檓 working on getting the atoms to trap using a technique called laser cooling. Once that鈥檚 possible, we can set up other lasers, which we can then use to excite the atoms, so they interact and talk to each other.鈥
If everything is set up correctly, Spielman will create the right conditions to study the mechanisms behind a unique quantum behavior called many-body localization at the atomic level. By way of explanation, Spielman uses an example of a hot cup of coffee put in a freezer.
鈥淚magine you brew a hot cup of coffee this morning, and you put it in your freezer," she says. "If you check on it the next day, you expect to find that your coffee has frozen. That鈥檚 called thermalization. That鈥檚 what we鈥檙e used to seeing,鈥 she explains. 鈥淏ut on the quantum level, something strange called localization can happen. You can come back the next day, open the freezer, and find your coffee cup just as hot as it was before.鈥
The potential impact of the findings from Spielman鈥檚 research is broad but of particular interest to those working on building quantum computers. Spielman explains that these localized systems of atoms can be used as a sort of 鈥渜uantum memory,鈥 much like a memory chip on a computer.
鈥淨uantum computers are still in their infancy, but these computers would be thousands of times more powerful than what we have today.鈥 In addition to working with Noel, Spielman also collaborates with Professor of Physics Thomas Carroll of Ursinus College, who was Noel鈥檚 very first Ph.D. student.
鈥淏etween the two of them I get nonstop advising," she says. "It's really kind of a unique situation to be able to get this much attention as a Ph.D. candidate, and I鈥檓 really thankful to be a part of the 今日吃瓜 community."
Published on: 11/13/2023